The occurrence of cyanobacteria in many water bodies where crayfish such as Procambarus clarkii are abundant leads to the possibility of toxin accumulation and food chain transfer. This paper describes the accumulation and depuration of microcystins from a microcystin and a non-microcystin producing strain of Microcystis aeruginosa, on the survivorship, growth and nutritional status of P. clarkii. Crayfish larvae were resistant to cyanobacteria and their toxins, surviving cyanobacteria densities during acute exposures. Juvenile crayfish tolerated toxic cyanobacteria better than non-toxic ones. This effect was also observed when analysing nutritional status of crayfish fed toxic and non-toxic cyanobacteria with the former having better lipid and protein contents than those fed non-toxic Microcystis. P. clarkii accumulated up to 2.9 microg MCYST/dry crayfish weight and the depuration pattern was similar to that observed for mussels by other authors. Due to the fact that the major part of the toxin is accumulated in the intestine and in the hepatopancreas, there is no significant risk in terms of human health if these parts are removed prior to crayfish consumption. Nevertheless, their use in dairy food and the possible transference of toxins along food chains should not be disregarded.